CN211735741U - Assembled whole light steel building - Google Patents

Abstract

The assembled integral light steel building is provided with a semicircular sub-plug-in, a horizontal frame beam unit and a semicircular mother plug-in which are sequentially connected in an inserting manner; the truss structure is also provided with a left truss beam and a right truss beam which are connected by upper and lower connecting plates through half the thickness of the beams in an up-and-down splicing manner; the outer side ends of the left truss beam and the right truss beam are fixedly connected with horizontal semicircular sealing plates of the semicircular sub-plug-in unit and the semicircular mother plug-in unit respectively; a plurality of supporting upright posts are vertically supported between the roof keel and the floor keel in parallel; the supporting upright post is formed by splicing a roof T-shaped connecting plate, a bottom T-shaped connecting plate and a middle upright post. The utility model has the advantages of convenient assembly and disassembly, and can meet the economic, convenient, beautiful, high-efficiency construction and quick construction requirements of light steel buildings at each tourist attraction; has artistic decoration value; the glass package does not shield the panoramic view; the construction is convenient and efficient; beautiful, economical, practical and environment-friendly.

Description

Assembled whole light steel building

Technical Field

The utility model belongs to a portable fixed building technical field of dismantling, concretely relates to assembled whole light steel building.

Background

The light steel building is a steel structure system building which is mainly made of light steel keels made of hot-dip galvanized steel strip cold rolling technology or other light steel materials and built by the light steel keels. Has the characteristics of light dead weight, high strength, small occupied area, and capability of serialization, stereotype and matching production of product specifications. The building is different from the traditional building by the concept that the house can be moved, the materials can be recycled, and the sustainable development is met. In order to realize the convenient disassembly and assembly design of the light steel building and meet the requirements of the light steel building on quick construction and assembly construction in each tourist spot, which is economic, convenient, beautiful and can be constructed efficiently, the following technical scheme is provided.

SUMMERY OF THE UTILITY MODEL

The utility model provides a technical problem: the assembled integral light steel building is provided, and the series, the forming and the matched production of the product specification are facilitated; the economical, convenient, beautiful and quick construction requirements of the light steel building are met.

The utility model adopts the technical proposal that: the utility model provides an assembled whole light steel building which characterized in that: the semi-circular male plug-in unit and the semi-circular female plug-in unit are arranged in a left-right axial symmetry manner; the semicircular sub plug-in component is provided with a sub plug-in rod on the vertical side wall of the semicircular forked horizontal front end; the semicircular branch front end vertical side wall of the semicircular female plug-in unit is provided with a female plug hole which is horizontally matched and plugged with the male plug rod; the semicircular son plug-in and the semicircular mother plug-in are respectively positioned at the left end and the right end of the building roof and the building bottom and are horizontally arranged; the semicircular son plug-in and the semicircular mother plug-in which are positioned on the roof are respectively provided with a horizontal semicircular sealing plate for sealing and connecting a semicircle; one or more horizontal frame beam units with the same structure are horizontally inserted and matched with the semicircular daughter card and the semicircular mother card; one end of the frame beam unit is provided with the female jack, and the other end of the frame beam unit is provided with the sub-inserted rod; the horizontal semicircular sealing plates of the semicircular sub-plug-in unit and the semicircular mother plug-in unit are horizontally supported and connected into a whole through a plurality of groups of left truss beams and right truss beams which are horizontally parallel; the horizontal outer ends of the beams of the left truss beam and the right truss beam are respectively and vertically and integrally welded and fixedly connected with a left truss vertical mounting plate and a right truss vertical mounting plate; the horizontal inner side end of the beam of the left truss beam is provided with a lower connecting plate which is half of the thickness of the beam and extends horizontally; the horizontal inner side end of the beam of the right truss beam is provided with an upper connecting plate which is half of the thickness of the beam and extends horizontally; the upper connecting plate and the lower connecting plate are vertically pressed and fastened into a whole through a counter bore fastening component; the roof and the bottom are parallel to each other and vertically support a plurality of supporting upright posts; the supporting upright post consists of a roof T-shaped connecting plate, a floor T-shaped connecting plate and a middle upright post; the roof T-shaped connecting plate and the floor T-shaped connecting plate respectively consist of a horizontal mounting plate and the lower connecting plate vertically and fixedly connected with the horizontal mounting plate; the horizontal mounting plate is used for vertically and fixedly connecting the lower bottom surface of the roof peripheral supporting member or the upper horizontal end surface of the floor peripheral supporting member; the lower connecting plate is fixedly connected with the upper end and the lower end of the middle upright post; the upper and lower ends of the middle upright post are respectively provided with the upper connecting plate with half the thickness of the upright post; the upper connecting plate is respectively connected with the roof T-shaped connecting plate and the lower connecting plate of the room bottom T-shaped connecting plate through an upper fastening assembly and a lower fastening assembly in a pressing and fastening manner.

Among the above-mentioned technical scheme, further, for the extension assembled joint that realizes crossbeam horizontal length between left truss crossbeam 4 and the right truss crossbeam 5: a truss beam unit is also arranged between the left truss beam and the right truss beam; one end of the truss beam unit is provided with an upper connecting plate which is vertically pressed and fixedly connected with the lower connecting plate of the left truss beam into a whole; and the other end of the truss beam unit is provided with a lower connecting plate which is vertically compressed and fastened to be connected with the upper connecting plate of the right truss beam into a whole.

Among the above-mentioned technical scheme, preferably, for the installation that does not interfere roof shrouding component and glass curtain wall component: the upper connecting plate is provided with a step hole; and the lower connecting plate is provided with a lower through hole matched and corresponding to the step hole.

Among the above-mentioned technical scheme, further, for do not sheltering from the sight that the leisure appreciats outdoor scene in the light steel building of outdoor leisure to simplify the installation of building: a sliding door slideway is arranged on the horizontal upper end face of the frame beam unit at the bottom of the house; the sliding door slide rail is used for being matched with a glass sliding door.

In the above technical solution, as another technical solution: the supporting upright posts are hinged with the glass door leaves through the hinge in a unilateral opening and closing mode.

Among the above-mentioned technical scheme, further, for do not sheltering from the sight that the person appreciated outdoor scene in the light steel building of outdoor leisure: the supporting upright posts are provided with prefabricated holes; the glass curtain wall with the quarter-curved arc is fixedly installed on the prefabricated hole through the glass curtain wall clamp.

Among the above-mentioned technical scheme, further, for adopting simple structure to realize the tight fixed mounting of clamp that glass curtain wall 9 need not drilling: the glass curtain wall clamp comprises an upper clamping piece and a lower clamping piece; the elastic clamp body is fixedly arranged on the inner side surface bulges of the upper clamping piece and the lower clamping piece; the fastening bolt penetrates through the symmetrical centers of the upper clamping piece and the lower clamping piece and the clamping nut is screwed and matched with the penetrating end of the fastening bolt; the left and right axisymmetric sides of the fastening bolt rod body respectively clamp two adjacent glass curtain walls; and two adjacent glass curtain walls are clamped oppositely through a set of upper and lower clamping pieces simultaneously, and the inner side surfaces of the elastic clamping bodies are elastically extruded and deformed, and the vertical inner and outer side walls of the two adjacent glass curtain walls are fixedly clamped and installed in an anti-skidding limiting opposite clamping mode.

Among the above-mentioned technical scheme, further, for realizing the increase and decrease of roof unit and assembling: a plurality of roof units are supported and installed between two groups of frame beam units which are parallel to each other in the front and the back of the roof by a left truss beam and a right truss beam; the roof unit is arranged in a direction vertical to the cross beam; and one side of the roof unit which is arranged in the direction vertical to the beam is provided with a slot, and the other side is provided with an inserting block which is matched with the slot.

In the above technical solution, preferably: the semicircular sub-plug-in, the semicircular mother plug-in, the frame beam unit, the left truss beam, the right truss beam and the support upright are all made of light steel.

Compared with the prior art, the utility model can realize following effect:

1. the scheme adopts a semi-circle male-female-frame beam unit 3 which is in parallel arc transition from top to bottom, a left truss beam and a right truss beam, and a cuboid steel structure support keel which is formed by combining vertical support columns and vertical support; the cuboid steel structure supporting keel has attractive appearance, light and handy structure and convenient construction; the supporting keel adopts a primary-secondary inserting structure and an upper connecting plate and a lower connecting plate structure, and is combined with a fastener and necessary gap filler to realize the quick splicing, assembly and construction of the steel structure building keel; not only can greatly shorten the building construction period, reduce the building construction cost, beautify and artistically form the appearance of the building; moreover, each component can realize serialization, stereotype and matching production; moreover, the requirements of 360-degree panoramic barrier-free appreciation of buildings at tourist attractions can be met; the light steel building is economical, practical, attractive, environment-friendly and convenient to build;

2. according to the scheme, the horizontal frame beam unit 3 and the truss beam unit 6 are increased or decreased, so that the horizontal length of the building can be increased or decreased, and the building requirement of a large building can be met; if the semicircular sub-plug-in 1 and the semicircular mother plug-in 2 are directly butted, the frame beam unit 3, the left truss beam 4 and the right truss beam 5 are removed; the building is supported by the supporting upright posts 7, so that the minimum round building can be quickly built, and the building requirement of a small-site building is met; the actual size of the building can be customized according to needs, and the horizontal length of the building can be increased or decreased by increasing or decreasing the unit components; the building size is freely, flexibly and conveniently changed;

3. the installation of the supporting upright post 7 is assembled by the steps of firstly installing the roof T-shaped connecting plate 71 and the floor T-shaped connecting plate 72 and finally installing the middle upright post 73; no installation dead angle exists; the assembly, the connection and the disassembly are simple, convenient, quick and convenient; and the supporting connection is reliable;

4. according to the scheme, glass sliding doors are respectively installed in the front long side direction and the rear long side direction of the building; the requirements of 360-degree panoramic viewing in the horizontal direction of the building can be met after a plurality of quarter glass curtain walls are respectively installed in the left and right directions of the building; the appearance is transparent and beautiful and has artistic breath; is particularly suitable for the rapid building and arrangement of the appreciation of each leisure place of tourist attractions.

Drawings

FIG. 1 is a schematic view of the exploded structure of each component of the light steel construction keel of the utility model;

FIG. 2 is a schematic view of the assembled light steel building in use;

FIG. 3 is an exploded view of the embodiment of FIG. 1 with the addition of a horizontal rim beam unit and a truss beam unit;

FIG. 4 is a perspective view of a quarter arc glass curtain wall of the present invention;

FIG. 5 is a cross-sectional view of the glass curtain wall clamping fixture for clamping glass according to the clamping principle of the glass curtain wall clamping fixture;

FIG. 6 is a perspective view of a roof unit of the present invention;

fig. 7 is the assembly schematic diagram of a plurality of roof units of the present invention.

Detailed Description

Specific embodiments of the present invention will be described below with reference to fig. 1 to 7. It is to be understood that the following description of the embodiments is merely exemplary and not intended to limit the invention in any way.

The following examples are provided to facilitate a better understanding of the present invention, but are not intended to limit the present invention. The construction and building material manufacturing methods in the following examples are all conventional methods unless otherwise specified. The building materials used in the following examples are commercially available unless otherwise specified.

In the present invention, without the contrary explanation, it is understood that: the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are merely for convenience of description of the present invention, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted", "connected", "disposed" and "provided" are to be interpreted broadly, e.g. as being either fixedly connected or detachably connected, or integrally connected. For example, they may be directly connected to each other or indirectly connected to each other through other intermediate members. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The utility model provides an assembled whole light steel building which characterized in that: the semi-circular male plug-in unit (1) and the semi-circular female plug-in unit (2) are arranged in a left-right axial symmetry mode (shown in figure 1); the semicircular forked horizontal front end of the semicircular sub-plug-in 1 is integrally cast or welded with the sub-plug-in rod 101; a semicircular forked front end vertical side wall of the semicircular female plug-in 2 is integrally cast and molded with a female plug hole 102 which is horizontally matched and plugged with the male plug rod 101; the semicircular son plug-in 1 and the semicircular mother plug-in 2 are respectively positioned at the left end and the right end of the upper horizontal roof and the lower horizontal roof of the light steel framework of the building and are horizontally arranged (as shown in figure 2). The semicircular son plug-in unit 1 and the semicircular mother plug-in unit 2 which are positioned on the roof are respectively provided with a horizontal semicircular sealing plate 103 for sealing and connecting semicircles; one or more horizontal frame beam units 3 with the same structure are arranged in a head-tail horizontal splicing and adapting mode with the semicircular daughter card 1 and the semicircular mother card 2 in sequence; a female jack 102 is formed at one end of the frame beam unit 3 as shown in fig. 1, and the left-end female jack 102 in the direction shown in fig. 1 is used for being inserted and matched with a sub-inserted rod 101 of the left-end semicircular sub-inserter 1; the other end of the frame beam unit 3 is provided with a sub-insertion rod 101, and the sub-insertion rod 101 is used for being inserted and connected with a female insertion hole 102 of the semicircular female plug-in unit 2 in an adaptive manner as shown in fig. 1. The semicircular sub-plug-in unit 1 and the semicircular mother plug-in unit 2 can be directly connected in a sub-plug-in mode to form a minimum circular building, and one or a plurality of horizontal frame beam units 3 can be added to increase the horizontal length of the building. It should be understood that when it is the smallest circular building; in order to facilitate the entering and exiting, a quarter-arc neutral position can be reserved for facilitating the entering and exiting of personnel; the hinge can also be used, and the person can conveniently enter and exit by mounting the hinge on the supporting upright post 7 and mounting a quarter of semicircular arc-shaped glass door body (comprising a door frame and a glass door) in a hinged mode.

For the support intensity that increases the building fossil fragments: the horizontal semicircular sealing plates 103 of the semicircular sub-plug-in unit 1 and the semicircular mother plug-in unit 2 are horizontally supported and connected into a whole through a plurality of groups of left truss beams 4 and right truss beams 5 which are horizontally parallel; the horizontal outer ends of the beams of the left truss beam 4 and the right truss beam 5 are respectively and integrally welded and fixedly connected with a left truss vertical mounting plate 4-1 and a right truss vertical mounting plate 5-1 (as shown in figure 1); a lower connecting plate 401 extending horizontally by half the beam thickness is arranged at the horizontal inner side end (the right end shown in figure 1) of the beam of the left truss beam 4; an upper connecting plate 402 which is half the beam thickness and extends horizontally is arranged at the horizontal inner end (the left end shown in figure 1) of the beam of the right truss beam 5; the upper connecting plate (402) and the lower connecting plate (401) are vertically compressed and fastened into a whole through a counter bore fastening component (a counter bore bolt and a nut); to ensure that the upper end faces of the left truss beam 4 and the right truss beam 5 are flush, coplanar and smooth without projections, so as to install the roof unit 10 described later.

The roof and the bottom are parallel to each other and vertically support a plurality of supporting columns 7 (as shown in figure 2); the supporting upright post 7 consists of three parts, namely a roof T-shaped connecting plate 71, a floor T-shaped connecting plate 72 and a middle upright post 73 (shown in figure 1); wherein the roof T-shaped connecting plate 71 and the bottom T-shaped connecting plate 72 are arranged in an up-down axial symmetry manner; the roof T-shaped connecting plate 71 and the floor T-shaped connecting plate 72 are respectively composed of a horizontal mounting plate 701 and the lower connecting plate 401 vertically and fixedly connected with the horizontal mounting plate 701. The lower tie plate 401 is used for blind-corner-free and barrier-free fastening of an upper tie plate 402 described later.

The horizontal mounting plates 701 of the roof T-shaped connecting plate 71 and the floor T-shaped connecting plate 72 are respectively used for vertically and tightly connecting the lower bottom surface of the roof peripheral supporting member or the upper horizontal end surface of the floor peripheral supporting member (as shown in fig. 2, the horizontal mounting plates 701 can adopt a sedimentation type mounting mode, if necessary, a sedimentation groove matched with the horizontal mounting plate 701 is formed on the corresponding member, and a threaded hole is formed at the bottom of the sedimentation groove for tightly and fixedly mounting the T-shaped connecting plate 71 and the floor T-shaped connecting plate 72). The upper and lower horizontal end faces of the semicircular sub-plug-in 1, the semicircular mother plug-in 2 and the frame beam unit 3 are respectively provided with a threaded hole screwed with a counter bore screw, if a settling tank is manufactured as described above, the bottom of the settling tank is provided with a threaded hole used for screwing the counter bore screw; and the horizontal mounting plates 701 of the roof T-shaped connecting plate 71 and the floor T-shaped connecting plate 72 are respectively fixedly connected with the semicircular daughter board 1, the semicircular mother board 2 and the frame beam unit 3 into a whole by counter bore screws.

The lower connecting plate 401 is used for fixedly connecting the upper end and the lower end of the middle upright post 73; and the upper and lower ends of the middle upright post 73 are respectively provided with an upper connecting plate 402 with half the thickness of the upright post; the upper connecting plates 402 at the upper and lower ends of the middle upright post 73 are respectively connected with the lower connecting plates 401 of the roof T-shaped connecting plate 71 and the floor T-shaped connecting plate 72 into a whole by internal and external pressing and fastening by using upper and lower fastening components as shown in FIG. 1. In order to ensure that the vertical surface at the outer side of the supporting upright post 7 is a flush surface; does not interfere with the installation of the glass curtain wall; the upper connecting plates 402 at the upper and lower ends of the middle upright post 73 are respectively provided with a step counter bore.

By adopting the supporting upright post 7 with the structure, the roof keel can be assembled firstly, and then the bottom keel can be assembled; then, respectively and fixedly mounting a roof T-shaped connecting plate 71 and a room bottom T-shaped connecting plate 72 on the horizontal end face of the roof keel, which is opposite to the upper horizontal end face of the room bottom keel; and finally, the upper connecting plates 402 at the upper end and the lower end of the middle upright post 73 are respectively used for internally and externally fastening and connecting the lower connecting plates 401 of the roof T-shaped connecting plate 71 and the room bottom T-shaped connecting plate 72, so that the vertical assembly, support and fixation of the support upright post 7 and the roof keel and the room bottom keel are completed. Adopt this split type structure equipment, no installation dead angle, whole accessible installation, the installation is simple, convenient.

In the above embodiment, further, to realize the extension and extension assembly connection of the horizontal length of the beam between the left truss beam 4 and the right truss beam 5: a truss beam unit 6 (shown in fig. 3) is also arranged between the left truss beam 4 and the right truss beam 5 when needed; one end of the truss beam unit 6 is provided with an upper connecting plate 402 which is vertically pressed and fixedly connected with a lower connecting plate 401 of the left truss beam 4 into a whole; the other end of the truss beam unit 6 is provided with a lower connecting plate 401 which is vertically pressed and fastened with an upper connecting plate 402 of the right truss beam 5 into a whole. I.e. the truss beam unit 6 is Z-shaped. So that the left truss beam 4, the truss beam unit 6 and the right truss beam 5 from left to right are connected in series from head to tail in sequence as shown in fig. 3. When the front frame beam unit and the rear frame beam unit 3 of the building keel are respectively two: (as shown in fig. 1 and 2), each group of horizontal truss beams in the middle only needs to be formed by directly splicing and connecting a left truss beam 4 and a right truss beam 5 in series. When three front and rear frame beam units 3 of the building keel are connected in series, a left truss beam 4, a middle truss beam unit 6 and a right truss beam 5 are required to be sequentially connected in series horizontally to form each group of horizontal truss beams in the middle of the keel (as shown in fig. 3). Correspondingly, along with the increasing of the front and rear frame beam units 3 of the building keel, the extension of the horizontal length of the building keel can be realized only by correspondingly increasing the number of the truss beam units 6; namely, the area of the building in the horizontal length direction is flexibly increased and decreased according to the requirements of users.

In the above embodiment, preferably, the upper connecting plates 402 of the right truss beam 5 and the middle upright 73 are respectively provided with stepped holes; the lower connecting plates 401 respectively arranged on the left truss crossbeam 4, the roof T-shaped connecting plate 71 and the floor T-shaped connecting plate 72 are respectively provided with lower through holes matched and corresponding to the step holes. Namely, a counter bore bolt and a fastening nut which is screwed and matched with the back penetrating end of the counter bore bolt are adopted to realize the up-and-down fastening and connection of the two components of the upper connecting plate 402 and the lower connecting plate 401 into a whole; and the upper end surfaces of the truss beams which are horizontally connected in series and the outer end surfaces of the support upright posts 7 which are vertically supported are ensured to be flush surfaces so as not to interfere with the installation of a roof unit 10 and a glass curtain wall 9 which are described later.

In the above embodiment, further, a sliding door slideway 3-1 is installed on the horizontal upper end surface of the frame beam unit 3 at the bottom of the house; the sliding door slideway 3-1 is installed by adopting the structure of the existing sliding door slideway. The sliding door slideway 3-1 is used for being matched with a glass sliding door 8 with a metal or plastic steel door frame. The glass sliding door 8 has the same structure as the existing glass sliding door. Adopt the glass push-and-pull door, lie fallow person in the light steel building of outdoor leisure is not sheltered from to aim at, sees through glass, directly appreciates the sight of outdoor scene, and adopts this push-and-pull door body encapsulation, has the simplified building installation, economical and practical, convenient advantage. When the horizontal length of the building is increased, the number of the supporting upright posts 7 can be adaptively increased, and the number of the glass sliding doors 8 is increased, so that the supporting rigidity of the building structure is ensured. In the above technical solution, as another embodiment: the supporting upright post 7 can be hinged with a glass door leaf through a hinge in a unilateral opening and closing way.

In the above embodiment, further, the support columns 7, such as the semicircular daughter card 1 and the semicircular mother card 2 shown in fig. 2, support the support columns 7 installed at the half-arc positions of the semicircular daughter card and the semicircular mother card 2, and the support columns 7 adjacent to the support columns 7; prefabricated holes are formed in the supporting upright posts 7; the vertical inner and outer side walls of the glass curtain wall 9 with the left and right adjacent quarter-bending arcs are fixedly installed in the prefabricated holes through glass curtain wall clamps 731. In order to see through this glass curtain wall 9, in coordination with glass push-and-pull door 8, make things convenient for indoor leisure personnel 360 to appreciate outdoor scene without sheltering from.

In the above embodiment, further (as shown in fig. 5), the glass curtain wall fixture 731 is composed of an upper jaw 7311, a lower jaw 7312; an elastic clamp body 7313, a fastening bolt 7314, and a clamping nut 7315. Wherein the upper and lower clamping pieces (7311, 7312) are welded or bonded to the inner side of the clamp to fixedly mount the elastic clamp body 7313; the elastic clamp 7313 is composed of a non-metal or metal base and a rubber elastic body fixedly connected to the metal or non-metal base by welding. Wherein, the nonmetal or metal base is fixedly connected with the upper and the lower clamping pieces (7311, 7312) in a sinking way, and the matched sinking grooves are formed on the inner side surfaces of the clamps; the vertical protrusion of the rubber elastic body is higher than the inner side surfaces of the upper clamping piece and the lower clamping piece (7311, 7312); through the elastic extrusion deformation of the rubber elastic body, the antiskid limiting butt clamp is used for clamping and fixedly mounting the vertical inner and outer side walls of a pair of adjacent glass curtain walls 9. When clamping and installing: a fastening bolt 7314 vertically installed using a through hole vertically formed through the symmetrical centers of the upper and lower jaws (7311, 7312); after the fastening bolt 7314 is used to penetrate through a prefabricated hole (through hole) formed in the support upright post 7, a clamping nut 7315 is screwed and installed at the penetrating end of the fastening bolt 7314, the clamping nut 7315 is screwed and tightened continuously, and the adjacent two glass curtain walls 9 are fixedly clamped and installed through the anti-slip limiting opposite clamping of the elastic clamp body 7313 which is elastically extruded and deformed by the upper and lower clamping pieces 7311, 7312, so that the glass curtain walls 9 are clamped and fixedly installed on the light steel keel without drilling.

In the above embodiment, further: a plurality of roof units 10 (shown in figure 2) are arranged between two groups of frame beam units 3 which are parallel to each other in the front-back direction of the roof and are supported by a plurality of groups of parallel left truss beams 4 and right truss beams 5; the roof unit 10 is installed perpendicular to the beam direction; and one side of the roof unit 10 installed perpendicular to the beam direction is provided with a slot 1001 and the other side is provided with an insert block 1002 (as shown in fig. 6) adapted to the slot 1001; the increase and decrease assembly of the plurality of roof units 10 is realized in the same manner as the splicing structure of the wood floor (as shown in fig. 7). And, necessarily: in the gap reserved between the roof unit 10 and the light steel keel, a hot-melt resin type gap filler can be used for filling the gap and fixedly connecting the roof unit 10 in an adhering manner.

In the above embodiment, preferably: the semicircular daughter board 1, the semicircular mother board 2, the frame beam unit 3, the left truss beam 4, the right truss beam 5 and the support upright post 7 are all made of light steel in the modes of pouring, welding, fixing and the like.

The utility model discloses when buildding: firstly, quickly building a roof keel by adopting a primary-secondary insertion mode; then, a left truss beam 4 and a right truss beam 5 are constructed and connected on the roof keel in a mode of being matched, pressed, fastened and connected into a whole up and down; thirdly, building a house bottom keel, namely splicing a semi-circular sub-plug-in 1, a semi-circular mother plug-in 2 and a frame beam unit 3; fourthly, building a support upright post 7; fifthly, building a roof unit 10 which can be made of building regenerative materials; sixthly, building a glass curtain wall 9; seventhly, installing a glass sliding door 8 or installing a glass door leaf in a hinged mode through a hinge shaft; and filling the building keel gap with a gap filler including but not limited to glass cement at a necessary position; finally, the purposes of seepage prevention, strengthening and bonding are achieved; thus, the whole light steel building is built.

From the above description it can be found that: the utility model adopts a semi-circle and a mother-plug (1, 2) which are in parallel arc transition from top to bottom, a frame beam unit 3, a left truss beam and a right truss beam (4, 5), and a vertical support column 7 is combined to support and build a cuboid steel structure support keel; the appearance is beautiful, the structure is light and handy, and the construction is convenient; the supporting keel adopts a primary-secondary inserting structure and an upper connecting plate and a lower connecting plate structure, and is combined with a fastener and necessary gap filler to realize the quick splicing, assembly and construction of the steel structure building keel; not only can greatly shorten the building construction period; the building cost is reduced; the appearance and shape of the artistic building are beautiful; moreover, each component can realize serialization, stereotype and matching production; the light steel building can meet the construction requirements of economical, convenient, beautiful and quick construction of the light steel building with tourist attractions which are nearly full view.

Furthermore, the horizontal frame beam unit 3 and the truss beam unit 6 are increased or decreased, so that the increase or decrease of the horizontal length of the building can be realized, and the building requirement of a large building can be met; if the semicircular sub-plug-in 1 and the semicircular mother plug-in 2 are directly butted, the frame beam unit 3, the left truss beam 4 and the right truss beam 5 are removed; the supporting upright post 7 is vertically and fixedly connected with the semicircular sub-plug-in unit 1 and the semicircular mother plug-in unit 2 in a supporting way, and a glass door leaf is hinged by a hinge; the building of the smallest round building can be realized, and the building requirement of a small-site building is met; the actual size of the building can be customized according to the needs and is realized by increasing or decreasing unit components; the building size can be freely, flexibly and conveniently changed. In addition, the installation of the supporting upright post 7 of the utility model is assembled by the steps of firstly installing the roof T-shaped connecting plate 71 and the floor T-shaped connecting plate 72 and finally installing the middle upright post 73; no installation dead angle exists; the assembly, the connection and the disassembly are simple, convenient, quick and convenient; the connection is reliable.

Finally, the glass sliding doors 8 can be respectively installed in the front and rear horizontal long side directions of the building; after the quarter glass curtain walls 9 are respectively installed in the left and right directions of the building, the requirements of full view and barrier-free viewing and appreciation of the building in the horizontal direction of 360 degrees can be realized in the use state shown in fig. 2; the whole building has transparent and beautiful appearance and artistic breath; the method is particularly suitable for the arrangement and the construction of the viewing of each leisure scene of tourist attractions.

To sum up, the utility model has the characteristics of light dead weight, high strength, small occupied area, and the product specification can be seriation, stereotype, supporting production. And the house can be moved, the materials can be recycled, and the concept of sustainable development is met. The light steel building has the advantages of being convenient to assemble and disassemble, meeting the requirements of economical, convenient and attractive light steel buildings at various tourist attractions, being capable of being constructed efficiently and being built and used quickly. The panoramic viewing requirement of the scenic spot can be met; has multiple advantages of economy, beauty, practicability, environmental protection and the like.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

The above-mentioned embodiments are merely preferred embodiments of the present invention, and not intended to limit the scope of the present invention, so that all equivalent changes made by the contents of the claims of the present invention should be included in the scope of the claims of the present invention.

Claims (9)

1. The utility model provides an assembled whole light steel building which characterized in that: the semi-circular plug-in connector comprises a semi-circular plug-in connector (1) and a semi-circular female plug-in connector (2) which are arranged in a left-right axial symmetry manner; the semicircular sub plug-in (1) is provided with a sub plug-in rod (101) on the vertical side wall of the semicircular forked horizontal front end; a female jack (102) which is horizontally matched and spliced with the sub-inserted rod (101) is formed in the vertical side wall of the front end of the semicircular branch of the semicircular female plug-in (2); the semicircular daughter card (1) and the semicircular mother card (2) are respectively positioned at the left end and the right end of the building roof and the building bottom and are horizontally arranged; the semicircular son plug-in (1) and the semicircular mother plug-in (2) which are positioned on the roof are respectively provided with a horizontal semicircular sealing plate (103) for sealing and connecting semicircles; one or more horizontal frame beam units (3) with the same structure are horizontally inserted and matched with the semicircular daughter card (1) and the semicircular mother card (2); one end of the frame beam unit (3) is provided with the female jack (102), and the other end is provided with the sub-inserted rod (101); the horizontal semicircular sealing plates (103) of the semicircular sub-plug-in unit (1) and the semicircular mother plug-in unit (2) are horizontally supported and connected into a whole through a plurality of groups of horizontally parallel left truss beams (4) and right truss beams (5); the horizontal outer ends of the beams of the left truss beam (4) and the right truss beam (5) are respectively and vertically and integrally welded and fixedly connected with a left truss vertical mounting plate (4-1) and a right truss vertical mounting plate (5-1); the horizontal inner side end of the beam of the left truss beam (4) is provided with a lower connecting plate (401) which is half of the thickness of the beam and extends horizontally; an upper connecting plate (402) which is half the thickness of the beam and extends horizontally is arranged at the horizontal inner side end of the beam of the right truss beam (5); the upper connecting plate (402) and the lower connecting plate (401) are vertically compressed and fastened into a whole through a counter bore fastening component; the roof and the bottom are parallel to each other and vertically support a plurality of supporting upright posts (7); the supporting upright post (7) consists of a roof T-shaped connecting plate (71), a floor T-shaped connecting plate (72) and a middle upright post (73); wherein the roof T-shaped connecting plate (71) and the floor T-shaped connecting plate (72) are respectively composed of a horizontal mounting plate (701) and the lower connecting plate (401) vertically and fixedly connected with the horizontal mounting plate (701); the horizontal mounting plate (701) is used for vertically and fixedly connecting the lower bottom surface of the roof peripheral supporting component or the upper horizontal end surface of the floor peripheral supporting component; the lower connecting plate (401) is used for fixedly connecting the upper end and the lower end of the middle upright post (73); the upper and lower ends of the middle upright post (73) are respectively provided with the upper connecting plate (402) with half the thickness of the upright post; the upper connecting plate (402) is respectively connected with the inner part and the outer part of a lower connecting plate (401) of a roof T-shaped connecting plate (71) and a room bottom T-shaped connecting plate (72) into a whole in a pressing and fastening way by using an upper fastening component and a lower fastening component.

2. The assembled integral light steel building of claim 1, wherein: a truss beam unit (6) is also arranged between the left truss beam (4) and the right truss beam (5); one end of the truss beam unit (6) is provided with an upper connecting plate (402) which is vertically pressed and fastened with the lower connecting plate (401) of the left truss beam (4) into a whole; the other end of the truss beam unit (6) is provided with a lower connecting plate (401) which is vertically pressed and fastened with an upper connecting plate (402) of the right truss beam (5) to be connected into a whole.

3. The assembled integral light steel building of claim 1, wherein: the upper connecting plate (402) is provided with a step hole; and the lower connecting plate (401) is provided with a lower through hole matched and corresponding to the stepped hole.

4. The assembled integral light steel building of claim 1, wherein: a sliding door slideway (3-1) is arranged on the horizontal upper end surface of the frame beam unit (3) at the bottom of the house; the sliding door slideway (3-1) is used for being matched with a glass sliding door (8).

5. The assembled integral light steel building of claim 1, wherein: the supporting upright posts (7) are hinged with the glass door leaf through the hinge in a unilateral opening and closing way.

6. The assembled integral light steel building of claim 1, wherein: the middle part of the supporting upright post (7) is provided with a prefabricated hole; the prefabricated hole is used for clamping and fixedly mounting a glass curtain wall (9) with a quarter of curved arc through a glass curtain wall clamp (731).

7. The assembled integral light steel building of claim 6, wherein: the glass curtain wall clamp (731) consists of an upper clamping piece (7311) and a lower clamping piece (7312); an elastic clamp body (7313) which is arranged by the upper and the lower clamping sheets (7311, 7312) and is fixed to the inner side surface of the clamp in a protruding way; a fastening bolt (7314) passing through the symmetrical centers of the upper and lower clamping pieces and a clamping nut (7315) screwed and matched with the penetrating end of the fastening bolt (7314); and the left and right axisymmetric sides of the rod body of the fastening bolt (7314) respectively clamp two adjacent glass curtain walls (9); and the vertical inner and outer side walls of two adjacent glass curtain walls (9) are clamped and fixedly installed by an anti-skidding limiting opposite clamp of an elastic clamp body (7313) which is elastically extruded and deformed by the inner side surfaces of the opposite clamps of the upper and lower clamping pieces (7311, 7312).

8. The assembled integral light steel building of claim 1, wherein: a plurality of roof units (10) are supported and installed between two groups of frame beam units (3) which are parallel to each other in the front and back of the roof by a left truss beam (4) and a right truss beam (5); the roof unit (10) is arranged perpendicular to the direction of the cross beam; and one side of the roof unit (10) which is arranged in the direction vertical to the beam is provided with a slot (1001) and the other side is provided with an insertion block (1002) which is matched with the slot (1001).

9. The assembled integral light steel building of claim 1, wherein: the semi-circular sub-plug-in (1), the semi-circular mother plug-in (2), the frame beam unit (3), the left truss beam (4), the right truss beam (5) and the support upright post (7) are all made of light steel.

Images